SU52315A1 - Device for longitudinal compensation of inductive voltage drop of transmission lines - Google Patents

Description

The stability of parallel operation of power plants associated with a long transmission line is limited by the reactance of the latter.

To reduce the line impedance, a booster (booster machine), like those used in DC circuits, can be used to compensate for the voltage drop across the ohmic impedance. An alternating current booster is connected in series to the line and gives a voltage that is in phase opposite to the inductive voltage drop in the line. In particular, it has already been proposed to compensate for the reactive voltage in the AC line to use an asynchronous machine connected in series and driven from the rotor by a multiphase collector-type frequency converter machine whose rings are driven through a serial transformer to an adjustable line.

The object of the present invention is a similar device in which, according to the invention, an auxiliary exciter is used to power the excitation winding of a multi-phase collector machine, which in turn receives: excitation from the frequency converter and from the contact rings of the asynchronous machine to which the auxiliary rotor winding cars . This tends to compensate for the electromotive slip force and stabilize the operation of the synchronous machine.

The invention is illustrated in the drawing, which shows the single-line electrical diagram of the device.

The stator of the asynchronous machine A is connected to the adjustable line L successively through the serial transformer T, the rotor of which is driven through the slip ring to the multi-phase collector machine F. Machine F has excitation on the stator and compensation and anti-compound winding. The excitation winding of the machine F is powered by the auxiliary driver I, which in turn receives the excitation from the frequency converter U and the contact rings K, to which the auxiliary winding is located, is located on the rotor of the asynchronous machine A. Converter

frequency and has a double row of brushes on the collector and a winding on the stator, the voltage of which is set in quadrature with the voltage on the collector by proper shearing of the brushes.

The primary winding of the frequency converter and through the contact rings b is adventitious to the excitatory series transformer G, made with an air gap, or to the potential-regulator.

As a result of the interaction of the elements of the circuit, the asynchronous machine A does not develop a torque (its slip force is compensated) and in order to maintain the rotation, an auxiliary motor D is required, which rotates the unit at a speed close to synchronous. Machine F and auxiliary exciter / may be driven by a separate motor, and not by an asynchronous machine A.

Excited according to this scheme, an asynchronous machine generates a voltage proportional to the current in the line, and in phase the opposite of the inductive voltage drop in the line.

The subject matter of the invention.

A device for longitudinal compensation of inductive voltage drop of transmission lines using an asynchronous machine connected in series with a network and driven by a multi-phase collector machine connected through a serial transformer, characterized in that an exciter is used to power the excitation winding of the multi-phase collector machine F turn receiving excitation from the frequency converter L and from the contact rings of machine A, to which the auxiliary winding of the rotor is adventurous and this machine, with a view to compensate for AD. d. slip and give stability to the operation of the asynchronous machine A.